-
Abstract
The sensitivity of tropical cyclone (TC) intensification to the ambient rotation effect under vertical shear is investigated. The results show that the vortices develop more rapidly with intermediate planetary vorticity, which suggests an optimal latitude for the TC development in the presence of vertical shear. This is different from the previous studies in which no mean flow is considered. It is found that the ambient rotation has two main effects. On the one hand, the boundary layer imbalance is largely controlled by the Coriolis parameter. For TCs at lower latitudes, due to the weaker inertial instability, the boundary inflow is promptly established, which results in a stronger moisture convergence and thus greater diabatic heating in the inner core region. On the other hand, the Coriolis parameter modulates the vertical realignment of the vortex with a higher Coriolis parameter, favoring a quicker vertical realignment and thus a greater potential for TC development. The combination of these two effects results in an optimal latitude for TC intensification in the presence of a vertical shear investigated.
-
-
Citation
Bi, M. Y., X. Y. Ge, and T. Li, 2018: Dependence of tropical cyclone intensification on the latitude under vertical shear. J. Meteor. Res., 32(1), 113–123, doi: 10.1007/s13351-018-7055-4..
Bi, M. Y., X. Y. Ge, and T. Li, 2018: Dependence of tropical cyclone intensification on the latitude under vertical shear. J. Meteor. Res., 32(1), 113–123, doi: 10.1007/s13351-018-7055-4..
|
Bi, M. Y., X. Y. Ge, and T. Li, 2018: Dependence of tropical cyclone intensification on the latitude under vertical shear. J. Meteor. Res., 32(1), 113–123, doi: 10.1007/s13351-018-7055-4..
Bi, M. Y., X. Y. Ge, and T. Li, 2018: Dependence of tropical cyclone intensification on the latitude under vertical shear. J. Meteor. Res., 32(1), 113–123, doi: 10.1007/s13351-018-7055-4..
|
Export: BibTex EndNote
Article Metrics
Article views:
PDF downloads:
Cited by: